Title
Sistemski prilaz razvoju energetski efikasnog multiaktuatorskog pneumatskog upravljačkog sistema sa rekuperacijom energije vazduha pod pritiskom
Creator
Šešlija, Milan,
CONOR:
11816295
Copyright date
2023
Object Links
Select license
Autorstvo-Nekomercijalno-Deliti pod istim uslovima 3.0 Srbija (CC BY-NC-SA 3.0)
License description
Dozvoljavate umnožavanje, distribuciju i javno saopštavanje dela, i prerade, ako se navede ime autora na način odredjen od strane autora ili davaoca licence i ako se prerada distribuira pod istom ili sličnom licencom. Ova licenca ne dozvoljava komercijalnu upotrebu dela i prerada. Osnovni opis Licence: http://creativecommons.org/licenses/by-nc-sa/3.0/rs/deed.sr_LATN Sadržaj ugovora u celini: http://creativecommons.org/licenses/by-nc-sa/3.0/rs/legalcode.sr-Latn
Language
Serbian
Cobiss-ID
Theses Type
Doktorska disertacija
description
Datum odbrane: 27.3.2024.
Other responsibilities
Academic Expertise
Tehničko-tehnološke nauke
University
Univerzitet u Nišu
Faculty
Elektronski fakultet
Alternative title
System approach to the development of energy efficient multiactuator pneumatic control system with compressed air energy recovery
Publisher
[M. O. Šešlija]
Format
159 listova
description
Biografija autora: list [160]
Bibliografija: listovi 149-159
description
Control systems
Abstract (en)
The main goal of this doctoral dissertation is to increase the energy
efficiency of pressurized air in production systems and establish measures
for rational consumption and efficient production, preparation, distribution
and access to the company.
In addition to the basic goal, the subject research is focused on the
identification and development of measures that can contribute to increasing
energy efficiency in automated pressurized air systems. Therefore, special
attention is paid to the possibility of minimizing losses and reducing the
total consumption of pressurized air in automated industrial systems with
pneumatic actuators.
This doctoral dissertation is based on the hypothesis that a more energyefficient
pressurized air system can be obtained by using procedures for the
controlled collection of used pressurized air and its, partial or complete,
return to the system, without jeopardizing the dynamic characteristics of the
system. A comparison based on experiments using commercially available
equipment shows the applicability and effectiveness of these methods, as
well as the level of savings in energy consumption.
The goal of the dissertation was achieved by the implementation of several
partial tasks (experimental plants were implemented). These facilities
include the implementation of pressurized air systems in which it is possible
to manage the movement of working elements, determine the optimal air
consumption of each element, change the working pressure (determine the
optimal value) and thus influence the position of the working elements, i.e.
determine the minimum force that can move the actuators. After that, parts
of those experimental facilities were integrated into one comprehensive one,
and experiments were carried out on it, which served as the basis for the
development of the previously mentioned model.
In addition to the basic goal, the subject research is aimed at identifying the
causes of inefficient operation of the initial system and the development of
measures that can contribute to increasing energy efficiency in automated
pressurized air systems. This refers to the possibilities of minimizing losses
and reducing the total consumption of pressurized air in automated systems.
To this end, research was carried out and the development of new structures
of an energy-efficient automated pressurized air system was proposed.
Authors Key words
energetska efikasnost, ponovna upotreba vazduha pod pritiskom,
multiaktuatorski pneumatski sistem
Authors Key words
Energy efficiency of compressed air systems, multi-actuator pneumatic
system
Classification
621.51:681.5.01(043.3)
Subject
Т 125
Type
Tekst
Abstract (en)
The main goal of this doctoral dissertation is to increase the energy
efficiency of pressurized air in production systems and establish measures
for rational consumption and efficient production, preparation, distribution
and access to the company.
In addition to the basic goal, the subject research is focused on the
identification and development of measures that can contribute to increasing
energy efficiency in automated pressurized air systems. Therefore, special
attention is paid to the possibility of minimizing losses and reducing the
total consumption of pressurized air in automated industrial systems with
pneumatic actuators.
This doctoral dissertation is based on the hypothesis that a more energyefficient
pressurized air system can be obtained by using procedures for the
controlled collection of used pressurized air and its, partial or complete,
return to the system, without jeopardizing the dynamic characteristics of the
system. A comparison based on experiments using commercially available
equipment shows the applicability and effectiveness of these methods, as
well as the level of savings in energy consumption.
The goal of the dissertation was achieved by the implementation of several
partial tasks (experimental plants were implemented). These facilities
include the implementation of pressurized air systems in which it is possible
to manage the movement of working elements, determine the optimal air
consumption of each element, change the working pressure (determine the
optimal value) and thus influence the position of the working elements, i.e.
determine the minimum force that can move the actuators. After that, parts
of those experimental facilities were integrated into one comprehensive one,
and experiments were carried out on it, which served as the basis for the
development of the previously mentioned model.
In addition to the basic goal, the subject research is aimed at identifying the
causes of inefficient operation of the initial system and the development of
measures that can contribute to increasing energy efficiency in automated
pressurized air systems. This refers to the possibilities of minimizing losses
and reducing the total consumption of pressurized air in automated systems.
To this end, research was carried out and the development of new structures
of an energy-efficient automated pressurized air system was proposed.
“Data exchange” service offers individual users metadata transfer in several different formats. Citation formats are offered for transfers in texts as for the transfer into internet pages. Citation formats include permanent links that guarantee access to cited sources. For use are commonly structured metadata schemes : Dublin Core xml and ETUB-MS xml, local adaptation of international ETD-MS scheme intended for use in academic documents.